Method of Adjusting the Height of a Fixed Rail Carriageway

Method of adjusting the height of a fixed rail carriageway, in which the sleepers supporting the rails are embedded in a carriageway panel resting on a substrate includes the steps of separating the carriageway panel from the substrate at the common contact face, forming filling apertures extending from the upper face to the lower face of the carriageway panel, lifting the carriageway panel to a fixed target height, incorporating a flowable casting material through the filling apertures in order to fill the space between the carriageway panel and the substrate, wherein separation is effected by pressure impacts.

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Description

The invention relates to a method of adjusting the height of a fixed rail carriageway in which the sleepers supporting the rails are embedded in a carriageway panel resting on a substrate.

Various methods of manufacturing fixed rail carriageways have already been disclosed, e.g. by DE 196 53 858 A1. In general, with fixed rail carriageways, the sleepers supporting the rails are embedded in a carriageway panel by casting. The carriageway panel in turn rests on a substrate, the term “substrate” being used in the present patent application to represent various types of substructure which may include for example a hydraulically bonded support layer (HGT).

In practice, the problem has arisen that the actual height of the rails deviates over time from the specified target height, these deviations usually being ascribable to settlement of the substructure. In the ballast tracks formerly used, such faults can be remedied relatively simply by plugging operations. In the case of rails in the form of a fixed carriageway, in particular with concrete constructions, there is a possibility of compensating to a limited degree the height differences which have arisen in the region of the rail support points. With this method, however, only a comparatively slight height difference can be adjusted. In the case of massive settlement, however, it is not possible to regain the target height of the rails solely within the rail support points.

In DE 196 31 430 C2, a method is described for incorporating filler material between two layers of a fixed carriageway for rail vehicles. The filler material is in the form of a liquid and is incorporated or squeezed into the fixed carriageway through apertures.

In DE 198 48 655 A1, a method is described for renovating fixed carriageways in which the layers of the fixed carriageway are separated by mechanical means, e.g. separation can be carried out by means of a wedge, by saws or by water-jet cutting.

The problem on which the invention is based is to indicate a method for the height adjustment of a fixed rail carriageway, which can be used even if there are relatively great height differences and with which the layers can be reliably separated.

To solve this problem, according to the invention a method of adjusting the height of a fixed rail carriageway is proposed comprising the following steps:

    • separation of the carriageway panel from the substrate at the common contact face,
    • formation of filling apertures extending from the upper face to the lower face of the carriageway panel,
    • lifting of the carriageway panel to a fixed target height,
    • introduction of a flowable casting material through the filling apertures in order to fill the space between the carriageway panel and the substrate, separation being effected by pressure impacts.

The invention is based on the realisation that height adjustment is not only possible by measures in the region of the rail support points, but can be effected by lifting of the entire carriageway panel. According to the invention, to this end the carriageway panel is separated from the substrate or substructure or the hydraulically bonded support layer by pressure impacts in such a manner that none of the parts is damaged. Then, perpendicular to the carriageway panel, filling apertures are formed at regular intervals. With suitable aids, the carriageway panel resting loosely on the substrate is lifted and moved into the desired target position, in particular to the target height and is fixed there. Then, a flowable casting material is introduced through the filling apertures and flows through the filling apertures into the space between the carriageway panel and the substrate until the entire gap between the carriageway panel and the substrate is filled up. After hardening of the casting material, the rail carriageway is permanently fixed in the specified target height.

In the method according to the invention, it is preferred that the filling apertures are formed in the carriageway panel in the region of the rails. It is advantageous if transverse to the rails plural, preferably two, filling apertures are formed. Alternatively, or in addition, optionally plural filling apertures can be formed in the longitudinal direction of the rails, their number depending on the length of the track section to have its height adjusted.

The necessary filling apertures can be drilled while the method according to the invention is being carried out. In order to simplify the incorporation of the casting material, this can be poured in, squeezed in or injected.

In order that after carrying out the method according to the invention for height adjustment, the necessary carrying capacity is available, in particular concrete or concrete substitute systems are used as casting material.

In the method according to the invention, the separation of the carriageway panel from the substrate can be carried out in particular by pneumatic pressure impacts. It is advantageous if, before separation, apertures are generated for incorporating the pressure impact tools.

If necessary, separation can additionally be carried out by horizontally disposed, force-generating elements such as hydraulic cylinders. As a further option, it can be provided to separate the carriageway panel by means of a horizontally disposed cable saw.

Further advantages and details of the invention will be explained by means of an embodiment with reference to the Figures, which are schematic section diagrams and show:

FIG. 1 a fixed rail carriageway, in which the carriageway panel has been separated from the substrate according to the method according to the invention;

FIG. 2 the fixed rail carriageway shown in FIG. 1 with the filling apertures formed after lifting; and

FIG. 3 the fixed rail carriageway with the casting material squeezed in.

The fixed rail carriageway 1 shown in FIG. 1 consists essentially of a carriageway panel 2 composed of concrete, which rests on a substrate 3. In the embodiment shown, the substrate is formed as a hydraulically bonded support layer.

In the carriageway panel 2, sleepers are embedded, whose single blocks 4, 5 support rails 6, 7. In FIG. 1, a triangle 8 is shown as a marker, whose lower point indicates the target height of the rail 6. Due to settlement of the substrate 3, the height difference h has occurred, which indicates the deviation between the target height and the actual height of the rail 6.

In order to adjust this height difference, the carriageway panel 2 is separated from the substrate 3 by pressure impacts, care being taken that the carriageway panel 2 and the substrate 3 are not damaged. Accordingly, separation is effected exactly at the contact face 9 between the carriageway panel 2 and the substrate 3. After separation, the carriageway panel 2 rests loosely on the substrate 3.

FIG. 2 shows the fixed rail carriageway shown in FIG. 1 with the filling apertures formed after lifting.

Filling apertures 10 are drilled in the carriageway panel 2. The filling apertures 10 extend transverse to the carriageway panel 2 from the upper face to the lower face. In the longitudinal direction of the rails, a large number of such filling apertures are drilled at regular intervals. In addition to the two filling apertures 10 shown in FIG. 2, further filling apertures may be present, which can also be staggered in the rail longitudinal direction.

After the drilling of the filling apertures 10, the carriageway panel 2 resting loosely on the substrate 3 is lifted. To this end, a suitable lifting means is used, which makes it possible to indicate and adjust the rails 6, 7 precisely to the target height. When this adjustment is complete, the “floating” carriageway panel 2 is fixed in this position.

FIG. 3 shows the fixed rail carriageway after the injection of the casting material.

After fixing of the carriageway panel 2, casting material 11 is injected via the filling apertures 10. The casting material 11 passes into the gap between the lower face of the carriageway panel 2 and the upper face of the substrate 3 and completely fills this gap. The viscosity of the casting material 11 is so selected that it does not run out of the open sides. At the sides of the carriageway panel 2, casing can also be applied, which is removed again after hardening of the casting material 11. To inject the casting material 11, a pump or other suitable tool can be used. After hardening of the casting material 11, the process of adjusting the height is complete, and then the rail carriageway 1 is available raised to the specified target height with the same carrying capacity as before the measure was carried out.

Claims

1. Method of adjusting the height of a fixed rail carriageway, in which sleepers supporting rails are embedded in a carriageway panel resting on a substrate comprising the following steps:

separating the carriageway panel from the substrate at the common contact face,
forming filling apertures extending from the upper face to the lower face of the carriageway panel,
lifting the carriageway panel to a fixed target height,
incorporating a flowable casting material through the filling apertures in order to fill the space between the carriageway panel and the substrate, and
effecting separation by pressure impacts.

2. Method of adjusting the height of a fixed rail carriageway according to claim 1, wherein the filling apertures are formed in the carriageway panel in the region of the rails.

3. Method of adjusting the height of a fixed rail carriageway according to claim 1 wherein transverse to the rails plural filling apertures are formed.

4. Method of adjusting the height of a fixed rail carriageway according to claim 1, wherein the filling apertures are formed staggered in the longitudinal direction of the rails.

5. Method of adjusting the height of a fixed rail carriageway according to claim 1, wherein the filling apertures are drilled.

6. Method of adjusting the height of a fixed rail carriageway according to claim 1, wherein the casting material is poured, injected or squeezed in.

7. Method of adjusting the height of a fixed rail carriageway according to claim 1, wherein concrete or concrete substitute systems are used as a casting material.

8. Method of adjusting the height of a fixed rail carriageway according to claim 1, wherein separation is effected by pneumatic pressure impacts.

9. Method of adjusting the height of a fixed rail carriageway according to claim 1, wherein before separation, apertures are produced for inserting pressure impact tools.

10. Method of adjusting the height of a fixed rail carriageway according to claim 1, wherein separation is carried out by means of horizontally disposed force-generating elements, in particular hydraulic cylinders.

11. Method of adjusting the height of a fixed rail carriageway according to claim 1, wherein separation is carried out by means of a horizontal cable saw.

12. Method of adjusting the height of a fixed rail carriageway according to claim 1, wherein transverse to the rails two filling aperture are formed.

13. Method of adjusting the height of a fixed rail carriageway according to claim 1, wherein separation is carried out by means of horizontally disposed hydraulic cylinders.

Patent History
Publication number: 20080257971
Type: Application
Filed: Mar 20, 2006
Publication Date: Oct 23, 2008
Patent Grant number: 7810741
Inventors: Martin Kowalski (Nuernberg), Stephan Freudenstein (Neumarkt)
Application Number: 10/592,810
Classifications
Current U.S. Class: Roadbed (238/2)
International Classification: E01B 37/00 (20060101);